| Autor: |
Azadi, Pourya, Klock, Rainer, Engell, Sebastian |
| Zdroj: |
IFAC-PapersOnLine; January 2021, Vol. 54 Issue: 3 p128-133, 6p |
| Abstrakt: |
the daily operation of blast furnaces in the steel industry is only partly automated. The thermal control of the process is yet carried out manually by the operators. Their decisions may lead to an oversupply of carbon-based fuels, causing surplus production of carbon monoxide. The unexploited excess of carbon monoxide in the iron oxide reduction reactions increases the total carbon supply, hence the cost and the CO2emissions. To maximize the carbon monoxide efficiency in the reduction reactions, the authors propose a dynamic optimizing control scheme and evaluate its performance by simulation studies using real operational data. The optimizer adjusts the fast dynamics of the blast furnace to prevent the inefficiency of the utilization of carbon monoxide that is influenced by the slow dynamics, subject to process productivity and safety constraints. Simulation results demonstrate that the control scheme can lead to the full conversion of the reduction reactions as well as a reduction of the total carbon supply. |
| Databáze: |
Supplemental Index |
| Externí odkaz: |
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